(* generated by Ott 0.22 from: l2.ott *) open Pmap open Pervasives type l = | Unknown | Trans of string * option l | Range of num * num val disjoint : forall 'a . set 'a -> set 'a -> bool let disjoint s1 s2 = let diff = s1 inter s2 in diff = Pervasives.empty val disjoint_all : forall 'a. list (set 'a) -> bool let rec disjoint_all ls = match ls with | [] -> true | [a] -> true | a::b::rs -> (disjoint a b) && (disjoint_all (b::rs)) end val duplicates : forall 'a. list 'a -> list 'a val union_map : forall 'a 'b. map 'a 'b -> map 'a 'b -> map 'a 'b val set_from_list : forall 'a. list 'a -> set 'a val subst : forall 'a. list 'a -> list 'a -> bool type x = string (* identifier *) type ix = string (* infix identifier *) type base_kind = (* base kind *) | BK_type (* kind of types *) | BK_nat (* kind of natural number size expressions *) | BK_order (* kind of vector order specifications *) | BK_effects (* kind of effect sets *) type id = (* Identifier *) | Id of x | DeIid of x (* remove infix status *) type kind = (* kinds *) | K_kind of list base_kind type nexp = (* expression of kind $Nat$, for vector sizes and origins *) | Nexp_id of id (* identifier *) | Nexp_constant of num (* constant *) | Nexp_times of nexp * nexp (* product *) | Nexp_sum of nexp * nexp (* sum *) | Nexp_exp of nexp (* exponential *) type efct = (* effect *) | Effect_rreg (* read register *) | Effect_wreg (* write register *) | Effect_rmem (* read memory *) | Effect_wmem (* write memory *) | Effect_undef (* undefined-instruction exception *) | Effect_unspec (* unspecified values *) | Effect_nondet (* nondeterminism from intra-instruction parallelism *) type kinded_id = (* optionally kind-annotated identifier *) | KOpt_none of id (* identifier *) | KOpt_kind of kind * id (* kind-annotated variable *) type nexp_constraint = (* constraint over kind $Nat$ *) | NC_fixed of nexp * nexp | NC_bounded_ge of nexp * nexp | NC_bounded_le of nexp * nexp | NC_nat_set_bounded of id * list num type order = (* vector order specifications, of kind $Order$ *) | Ord_id of id (* identifier *) | Ord_inc (* increasing (little-endian) *) | Ord_dec (* decreasing (big-endian) *) type effects = (* effect set, of kind $Effects$ *) | Effects_var of id | Effects_set of list efct (* effect set *) type quant_item = (* Either a kinded identifier or a nexp constraint for a typquant *) | QI_id of kinded_id (* An optionally kinded identifier *) | QI_const of nexp_constraint (* A constraint for this type *) type typ = (* Type expressions, of kind $Type$ *) | Typ_wild (* Unspecified type *) | Typ_var of id (* Type variable *) | Typ_fn of typ * typ * effects (* Function type (first-order only in user code) *) | Typ_tup of list typ (* Tuple type *) | Typ_app of id * list typ_arg (* type constructor application *) and typ_arg = (* Type constructor arguments of all kinds *) | Typ_arg_nexp of nexp | Typ_arg_typ of typ | Typ_arg_order of order | Typ_arg_effects of effects type typquant = (* type quantifiers and constraints *) | TypQ_tq of list quant_item | TypQ_no_forall (* sugar, omitting quantifier and constraints *) type lit = (* Literal constant *) | L_unit (* $() : unit$ *) | L_zero (* $bitzero : bit$ *) | L_one (* $bitone : bit$ *) | L_true (* $true : bool$ *) | L_false (* $false : bool$ *) | L_num of num (* natural number constant *) | L_hex of string (* bit vector constant, C-style *) | L_bin of string (* bit vector constant, C-style *) | L_undef (* constant representing undefined values *) | L_string of string (* string constant *) type typschm = (* type scheme *) | TypSchm_ts of typquant * typ type pat = (* Pattern *) | P_lit of lit (* literal constant pattern *) | P_wild (* wildcard *) | P_as of pat * id (* named pattern *) | P_typ of typ * pat (* typed pattern *) | P_id of id (* identifier *) | P_app of id * list pat (* union constructor pattern *) | P_record of list fpat * bool (* struct pattern *) | P_vector of list pat (* vector pattern *) | P_vector_indexed of list (num * pat) (* vector pattern (with explicit indices) *) | P_vector_concat of list pat (* concatenated vector pattern *) | P_tup of list pat (* tuple pattern *) | P_list of list pat (* list pattern *) and fpat = (* Field pattern *) | FP_Fpat of id * pat type ne = (* internal numeric expressions *) | Ne_var of id | Ne_const of num | Ne_mult of ne * ne | Ne_add of ne * ne | Ne_exp of ne | Ne_unary of ne type letbind = (* Let binding *) | LB_val_explicit of typschm * pat * exp (* value binding, explicit type (pat must be total) *) | LB_val_implicit of pat * exp (* value binding, implicit type (pat must be total) *) and exp = (* Expression *) | E_block of list exp (* block (parsing conflict with structs?) *) | E_id of id (* identifier *) | E_lit of lit (* literal constant *) | E_cast of typ * exp (* cast *) | E_app of exp * list exp (* function application *) | E_app_infix of exp * id * exp (* infix function application *) | E_tuple of list exp (* tuple *) | E_if of exp * exp * exp (* conditional *) | E_for of id * exp * exp * exp * exp (* loop *) | E_vector of list exp (* vector (indexed from 0) *) | E_vector_indexed of list (num * exp) (* vector (indexed consecutively) *) | E_vector_access of exp * exp (* vector access *) | E_vector_subrange of exp * exp * exp (* subvector extraction *) | E_vector_update of exp * exp * exp (* vector functional update *) | E_vector_update_subrange of exp * exp * exp * exp (* vector subrange update (with vector) *) | E_list of list exp (* list *) | E_cons of exp * exp (* cons *) | E_record of fexps (* struct *) | E_record_update of exp * fexps (* functional update of struct *) | E_field of exp * id (* field projection from struct *) | E_case of exp * list pexp (* pattern matching *) | E_let of letbind * exp (* let expression *) | E_assign of lexp * exp (* imperative assignment *) and lexp = (* lvalue expression *) | LEXP_id of id (* identifier *) | LEXP_vector of lexp * exp (* vector element *) | LEXP_vector_range of lexp * exp * exp (* subvector *) | LEXP_field of lexp * id (* struct field *) and fexp = (* Field-expression *) | FE_Fexp of id * exp and fexps = (* Field-expression list *) | FES_Fexps of list fexp * bool and pexp = (* Pattern match *) | Pat_exp of pat * exp type k = (* Internal kinds *) | Ki_typ | Ki_nat | Ki_ord | Ki_efct | Ki_val (* Representing values, for use in identifier checks *) | Ki_ctor of list k * k | Ki_infer (* Representing an unknown kind, inferred by context *) type index_range = (* index specification, for bitfields in register types *) | BF_single of num (* single index *) | BF_range of num * num (* index range *) | BF_concat of index_range * index_range (* concatenation of index ranges *) type naming_scheme_opt = (* Optional variable-naming-scheme specification for variables of defined type *) | Name_sect_none | Name_sect_some of string type rec_opt = (* Optional recursive annotation for functions *) | Rec_nonrec (* non-recursive *) | Rec_rec (* recursive *) type effects_opt = (* Optional effect annotation for functions *) | Effects_opt_pure (* sugar for empty effect set *) | Effects_opt_effects of effects type funcl = (* Function clause *) | FCL_Funcl of id * pat * exp type tannot_opt = (* Optional type annotation for functions *) | Typ_annot_opt_some of typquant * typ type default_typing_spec = (* Default kinding or typing assumption *) | DT_kind of base_kind * id | DT_typ of typschm * id type val_spec = (* Value type specification *) | VS_val_spec of typschm * id type type_def = (* Type definition body *) | TD_abbrev of id * naming_scheme_opt * typschm (* type abbreviation *) | TD_record of id * naming_scheme_opt * typquant * list (typ * id) * bool (* struct type definition *) | TD_variant of id * naming_scheme_opt * typquant * list (typ * id) * bool (* union type definition *) | TD_enum of id * naming_scheme_opt * list id * bool (* enumeration type definition *) | TD_register of id * nexp * nexp * list (index_range * id) (* register mutable bitfield type definition *) type fundef = (* Function definition *) | FD_function of rec_opt * tannot_opt * effects_opt * list funcl type def = (* Top-level definition *) | DEF_type of type_def (* type definition *) | DEF_fundef of fundef (* function definition *) | DEF_val of letbind (* value definition *) | DEF_spec of val_spec (* top-level type constraint *) | DEF_default of default_typing_spec (* default kind and type assumptions *) | DEF_reg_dec of typ * id (* register declaration *) | DEF_scattered_function of rec_opt * tannot_opt * effects_opt * id (* scattered function definition header *) | DEF_scattered_funcl of funcl (* scattered function definition clause *) | DEF_scattered_variant of id * naming_scheme_opt * typquant (* scattered union definition header *) | DEF_scattered_unioncl of id * typ * id (* scattered union definition member *) | DEF_scattered_end of id (* scattered definition end *) type typ_lib = (* library types and syntactic sugar for them *) | Typ_lib_unit (* unit type with value $()$ *) | Typ_lib_bool (* booleans $true$ and $false$ *) | Typ_lib_bit (* pure bit values (not mutable bits) *) | Typ_lib_nat (* natural numbers 0,1,2,... *) | Typ_lib_string of string (* UTF8 strings *) | Typ_lib_enum of nexp * nexp * order (* natural numbers nexp .. nexp+nexp-1, ordered by order *) | Typ_lib_enum1 of nexp (* sugar for \texttt{enum nexp 0 inc} *) | Typ_lib_enum2 of nexp * nexp (* sugar for \texttt{enum (nexp'-nexp+1) nexp inc} or \texttt{enum (nexp-nexp'+1) nexp' dec} *) | Typ_lib_vector of nexp * nexp * order * typ (* vector of typ, indexed by natural range *) | Typ_lib_vector2 of typ * nexp (* sugar for vector indexed by [ nexp ] *) | Typ_lib_vector3 of typ * nexp * nexp (* sugar for vector indexed by [ nexp..nexp ] *) | Typ_lib_list of typ (* list of typ *) | Typ_lib_set of typ (* finite set of typ *) | Typ_lib_reg of typ (* mutable register components holding typ *) type ctor_def = (* Datatype constructor definition clause *) | CT_ct of id * typschm type defs = (* Definition sequence *) | Defs of list def